package webidl;
#if macro
import webidl.Data;
import haxe.macro.Context;
import haxe.macro.Expr;
class Module {
var p : Position;
var hl : Bool;
var pack : Array<String>;
var opts : Options;
var types : Array<TypeDefinition> = [];
function new(p, pack, hl, opts) {
this.p = p;
this.pack = pack;
this.hl = hl;
this.opts = opts;
}
function makeName( name : String ) {
if( opts.chopPrefix != null && StringTools.startsWith(name, opts.chopPrefix) ) name = name.substr(opts.chopPrefix.length);
return capitalize(name);
}
function buildModule( decls : Array<Definition> ) {
for( d in decls )
buildDecl(d);
return types;
}
function makeType( t : TypeAttr ) : ComplexType {
return switch( t.t ) {
case TVoid: macro : Void;
case TInt: macro : Int;
case TShort: hl ? macro : hl.UI16 : macro : Int;
case TFloat: hl ? macro : Single : macro : Float;
case TDouble: macro : Float;
case TBool: macro : Bool;
case TAny: macro : webidl.Types.Any;
case TArray(t):
var tt = makeType({ t : t, attr : [] });
macro : webidl.Types.NativePtr<$tt>;
case TVoidPtr: macro : webidl.Types.VoidPtr;
case TCustom(id): TPath({ pack : [], name : makeName(id) });
}
}
function defVal( t : TypeAttr ) : Expr {
return switch( t.t ) {
case TVoid: throw "assert";
case TInt, TShort: { expr : EConst(CInt("0")), pos : p };
case TFloat, TDouble: { expr : EConst(CFloat("0.")), pos : p };
case TBool: { expr : EConst(CIdent("false")), pos : p };
default: { expr : EConst(CIdent("null")), pos : p };
}
}
function makeNative( name : String ) : MetadataEntry {
return { name : ":hlNative", params : [{ expr : EConst(CString(opts.nativeLib)), pos : p },{ expr : EConst(CString(name)), pos : p }], pos : p };
}
function makeEither( arr : Array<ComplexType> ) {
var i = 0;
var t = arr[i++];
while( i < arr.length ) {
var t2 = arr[i++];
t = TPath({ pack : ["haxe", "extern"], name : "EitherType", params : [TPType(t), TPType(t2)] });
}
return t;
}
function makePosition( pos : webidl.Data.Position ) {
if( pos == null )
return p;
return Context.makePosition({ min : pos.pos, max : pos.pos + 1, file : pos.file });
}
function makeNativeField( iname : String, f : webidl.Data.Field, args : Array<FArg>, ret : TypeAttr, pub : Bool ) : Field {
var name = f.name;
var isConstr = name == iname;
if( isConstr ) {
name = "new";
ret = { t : TCustom(iname), attr : [] };
}
var expr = if( ret.t == TVoid )
{ expr : EBlock([]), pos : p };
else
{ expr : EReturn(defVal(ret)), pos : p };
var access : Array<Access> = [];
if( !hl ) access.push(AInline);
if( pub ) access.push(APublic);
if( isConstr ) access.push(AStatic);
return {
pos : makePosition(f.pos),
name : pub ? name : name + args.length,
meta : [makeNative(iname+"_" + name + (name == "delete" ? "" : ""+args.length))],
access : access,
kind : FFun({
ret : makeType(ret),
expr : expr,
args : [for( a in args ) { name : a.name, opt : a.opt, type : makeType(a.t) }],
}),
};
}
function buildDecl( d : Definition ) {
var p = makePosition(d.pos);
switch( d.kind ) {
case DInterface(iname, attrs, fields):
var dfields : Array<Field> = [];
var variants = new Map();
function getVariants( name : String ) {
if( variants.exists(name) )
return null;
variants.set(name, true);
var fl = [];
for( f in fields )
if( f.name == name )
switch( f.kind ) {
case FMethod(args, ret):
fl.push({args:args, ret:ret,pos:f.pos});
default:
}
return fl;
}
for( f in fields ) {
switch( f.kind ) {
case FMethod(_):
var vars = getVariants(f.name);
if( vars == null ) continue;
var isConstr = f.name == iname;
if( vars.length == 1 && !isConstr ) {
var f = makeNativeField(iname, f, vars[0].args, vars[0].ret, true);
dfields.push(f);
} else {
// create dispatching code
var maxArgs = 0;
for( v in vars ) if( v.args.length > maxArgs ) maxArgs = v.args.length;
if( vars.length > 1 && maxArgs == 0 )
Context.error("Duplicate method declaration", makePosition(vars.pop().pos));
var targs : Array<FunctionArg> = [];
var argsTypes = [];
for( i in 0...maxArgs ) {
var types : Array<{t:TypeAttr,sign:String}>= [];
var names = [];
var opt = false;
for( v in vars ) {
var a = v.args[i];
if( a == null ) {
opt = true;
continue;
}
var sign = haxe.Serializer.run(a.t);
var found = false;
for( t in types )
if( t.sign == sign ) {
found = true;
break;
}
if( !found ) types.push({ t : a.t, sign : sign });
if( names.indexOf(a.name) < 0 )
names.push(a.name);
if( a.opt )
opt = true;
}
argsTypes.push(types);
targs.push({
name : names.join("_"),
opt : opt,
type : makeEither([for( t in types ) makeType(t.t)]),
});
}
// native impls
var retTypes : Array<{t:TypeAttr,sign:String}> = [];
for( v in vars ) {
var f = makeNativeField(iname, f, v.args, v.ret, false );
var sign = haxe.Serializer.run(v.ret);
var found = false;
for( t in retTypes )
if( t.sign == sign ) {
found = true;
break;
}
if( !found ) retTypes.push({ t : v.ret, sign : sign });
dfields.push(f);
}
vars.sort(function(v1, v2) return v1.args.length - v2.args.length);
// dispatch only on args count
function makeCall( v : { args : Array<FArg>, ret : TypeAttr } ) : Expr {
var ident = { expr : EConst(CIdent( (f.name == iname ? "new" : f.name) + v.args.length )), pos : p};
var e : Expr = { expr : ECall(ident, [for( i in 0...v.args.length ) { expr : ECast({ expr : EConst(CIdent(targs[i].name)), pos : p }, null), pos : p }]), pos : p };
if( v.ret.t != TVoid )
e = { expr : EReturn(e), pos : p };
else if( isConstr )
e = macro this = $e;
return e;
}
var expr = makeCall(vars[vars.length - 1]);
for( i in 1...vars.length ) {
var v = vars[vars.length - 1 - i];
var aname = targs[v.args.length].name;
var call = makeCall(v);
expr = macro if( $i{aname} == null ) $call else $expr;
}
dfields.push({
name : isConstr ? "new" : f.name,
pos : makePosition(f.pos),
access : [APublic, AInline],
kind : FFun({
expr : expr,
args : targs,
ret : makeEither([for( t in retTypes ) makeType(t.t)]),
}),
});
}
case FAttribute(t):
var tt = makeType(t);
dfields.push({
pos : p,
name : f.name,
kind : FProp("get", "set", tt),
access : [APublic],
});
dfields.push({
pos : p,
name : "get_" + f.name,
meta : [makeNative(iname+"_get_" + f.name)],
kind : FFun({
ret : tt,
expr : macro return ${defVal(t)},
args : [],
}),
});
dfields.push({
pos : p,
name : "set_" + f.name,
meta : [makeNative(iname+"_set_" + f.name)],
kind : FFun({
ret : tt,
expr : macro return ${defVal(t)},
args : [{ name : "_v", type : tt }],
}),
});
case DConst(name, type, value):
dfields.push({
pos : p,
name : name,
access : [APublic, AStatic, AInline],
kind : FVar(
makeType({t : type, attr : []}),
macro $i{value}
)
});
}
}
var td : TypeDefinition = {
pos : p,
pack : pack,
name : makeName(iname),
meta : [],
kind : TDAbstract(macro : webidl.Types.Ref, [], [macro : webidl.Types.Ref]),
fields : dfields,
};
if( attrs.indexOf(ANoDelete) < 0 )
dfields.push(makeNativeField(iname, { name : "delete", pos : null, kind : null }, [], { t : TVoid, attr : [] }, true));
if( !hl ) {
for( f in dfields )
if( f.meta != null )
for( m in f.meta )
if( m.name == ":hlNative" ) {
if( f.access == null ) f.access = [];
switch( f.kind ) {
case FFun(df):
var call = opts.nativeLib + "._eb_" + switch( m.params[1].expr ) { case EConst(CString(name)): name; default: throw "!"; };
var args : Array<Expr> = [for( a in df.args ) { expr : EConst(CIdent(a.name)), pos : p }];
if( f.access.indexOf(AStatic) < 0 )
args.unshift(macro this);
df.expr = macro return untyped $i{call}($a{args});
default: throw "assert";
}
if (f.access.indexOf(AInline) == -1) f.access.push(AInline);
f.meta.remove(m);
break;
}
}
types.push(td);
case DImplements(name,intf):
var name = makeName(name);
var intf = makeName(intf);
var found = false;
for( t in types )
if( t.name == name ) {
found = true;
switch( t.kind ) {
case TDAbstract(a, _):
t.fields.push({
pos : p,
name : "_to" + intf,
meta : [{ name : ":to", pos : p }],
access : [AInline],
kind : FFun({
args : [],
expr : macro return cast this,
ret : TPath({ pack : [], name : intf }),
}),
});
var toImpl = [intf];
while( toImpl.length > 0 ) {
var intf = toImpl.pop();
var td = null;
for( t2 in types ) {
if( t2.name == intf )
switch( t2.kind ) {
case TDAbstract(a2, _, to):
for ( inheritedField in t2.fields ) {
// Search for existing field
var fieldExists = false;
for ( existingField in t.fields ) {
if ( inheritedField.name == existingField.name ) {
fieldExists = true;
break;
}
}
if ( !fieldExists ) {
t.fields.push(inheritedField);
}
}
default:
}
}
}
default:
Context.warning("Cannot have " + name+" extends " + intf, p);
}
break;
}
if( !found )
Context.warning("Class " + name+" not found for implements " + intf, p);
case DEnum(name, values):
var index = 0;
types.push({
pos : p,
pack : pack,
name : makeName(name),
meta : [{ name : ":enum", pos : p }],
kind : TDAbstract(macro : Int),
fields : [for( v in values ) { pos : p, name : v, kind : FVar(null,{ expr : EConst(CInt(""+(index++))), pos : p }) }],
});
}
}
public static function buildTypes( opts : Options, hl : Bool = false ):Array<TypeDefinition> {
var p = Context.currentPos();
if( opts.nativeLib == null ) {
Context.error("Missing nativeLib option for HL", p);
return null;
}
// load IDL
var file = opts.idlFile;
var content = try {
file = Context.resolvePath(file);
sys.io.File.getBytes(file);
} catch( e : Dynamic ) {
Context.error("" + e, p);
return null;
}
// parse IDL
var parse = new webidl.Parser();
var decls = null;
try {
decls = parse.parseFile(file,new haxe.io.BytesInput(content));
} catch( msg : String ) {
var lines = content.toString().split("\n");
var start = lines.slice(0, parse.line-1).join("\n").length + 1;
Context.error(msg, Context.makePosition({ min : start, max : start + lines[parse.line-1].length, file : file }));
return null;
}
var module = Context.getLocalModule();
var pack = module.split(".");
pack.pop();
return new Module(p, pack, hl, opts).buildModule(decls);
}
public static function build( opts : Options ) {
var file = opts.idlFile;
var module = Context.getLocalModule();
var types = buildTypes(opts, Context.defined("hl"));
if (types == null) return macro : Void;
// Add an init function for initializing the JS module
if (Context.defined("js")) {
types.push(macro class Init {
public static function init(onReady:Void->Void) {
untyped __js__('${opts.nativeLib} = ${opts.nativeLib}().then(onReady)');
}
});
// For HL no initialization is required so execute the callback immediately
} else if (Context.defined("hl")) {
types.push(macro class Init {
public static function init(onReady:Void->Void) {
onReady();
}
});
}
Context.defineModule(module, types);
Context.registerModuleDependency(module, file);
return macro : Void;
}
/**
* Capitalize the first letter of a string
* @param text The string to capitalize
*/
private static function capitalize(text:String) {
return text.charAt(0).toUpperCase() + text.substring(1);
}
}
#end